Study of para-Quinone Methide Precursors toward the Realkylation of Aged Acetylcholinesterase

Ryan J. Yoder; Qinggeng Zhuang; Jeremy M. Beck; Andrew Franjesevic; Travis G. Blanton; Sydney Sillart; Tyler Secor; Leah Guerra; Jason D. Brown; Carolyn Reid; Craig A. McElroy; ?zlem Do?an Ekici; Christopher S. Callam; Christopher M. Hadad

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Study of para-Quinone Methide Precursors toward the Realkylation of Aged Acetylcholinesterase

机译：对乙酰胆碱酯酶酶的Realakation氨基氨基的研究

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src="http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/amclct/2017/amclct.2017.8.issue-6/acsmedchemlett.7b00037/20170606/images/medium/ml-2017-00037n_0009.gif">Acetylcholinesterase (AChE) is an essential enzyme that can be targeted by organophosphorus (OP) compounds, including nerve agents. Following exposure to OPs, AChE becomes phosphylated (inhibited) and undergoes a subsequent aging process where the OP–AChE adduct is dealkylated. The aged AChE is unable to hydrolyze acetylcholine, resulting in accumulation of the neurotransmitter in the central nervous system (CNS) and elsewhere. Current therapeutics are only capable of reactivating inhibited AChE. There are no known therapeutic agents to reverse the aging process or treat aged AChE. Quinone methides (QMs) have been shown to alkylate phosphates under physiological conditions. In this study, a small library of novel quinone methide precursors (QMPs) has been synthesized and examined as potential alkylating agents against model nucleophiles, including a model phosphonate. Computational studies have been performed to evaluate the affinity of QMPs for the aged AChE active site, and preliminary testing with electric eel AChE has been performed.

机译：src =“http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/amclct/2017/amclct.2017.8.issue-6/acsmedchemlett.7b0006/images/medium/ml -2017-00037nn_0009.gif“>乙酰胆碱酯酶（ache）是一种必需酶，其可以由有机磷（Op）化合物靶向，包括神经剂。在接触OPS之后，疼痛变为磷酸化（抑制），并经历随后的老化过程，其中OP-ACHE加合物被淘汰。老年疼痛不能水解乙酰胆碱，导致中枢神经系统（CNS）和其他地方的神经递质积累。目前的治疗剂仅能够重新激活抑制疼痛。没有已知的治疗剂来逆转老化过程或治疗疼痛。在生理条件下已显示醌甲基化物（QMS）烷基化磷酸酯。在该研究中，已经合成了一种小型醌氨基氨基氨基前体（QMP），并将其作为抗模型亲核试剂的潜在烷基化试剂，包括膦酸二粒。已经进行了计算研究以评估QMP对老年疼痛活性位点的亲和力，并且已经进行了电鳗疼痛的初步测试。

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《ACS medicinal chemistry letters》 |2017年第6期|共6页
作者
Ryan J. Yoder; Qinggeng Zhuang; Jeremy M. Beck; Andrew Franjesevic; Travis G. Blanton; Sydney Sillart; Tyler Secor; Leah Guerra; Jason D. Brown; Carolyn Reid; Craig A. McElroy; ?zlem Do?an Ekici; Christopher S. Callam; Christopher M. Hadad;
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Department of Chemistry and Biochemistry The Ohio State University Marion Campus 1465 Mt. Vernon Avenue Marion Ohio 43302 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University Marion Campus 1465 Mt. Vernon Avenue Marion Ohio 43302 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

College of Pharmacy The Ohio State University 500 West 12th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University Newark Campus 1179 University Drive Newark Ohio 43055 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

Department of Chemistry and Biochemistry The Ohio State University 100 West 18th Avenue Columbus Ohio 43210 United States;

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原文格式 PDF
正文语种 eng
中图分类药学;化学;
关键词
Acetylcholinesterase; organophosphorus chemical nerve agents; quinone methide;

机译：乙酰胆碱酯酶;有机磷化学神经剂;醌氨基;
入库时间 2022-08-20 00:55:27

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专利

1. Study of para-Quinone Methide Precursors toward the Realkylation of Aged Acetylcholinesterase [J] . Ryan J. Yoder, Qinggeng Zhuang, Jeremy M. Beck, ACS medicinal chemistry letters . 2017,第6期

机译：对乙酰胆碱酯酶酶的Realakation氨基氨基的研究
2. Base-mediated 1,6-conjugate addition of the Seyferth-Gilbert reagent to para-quinone methides [J] . Ashis Kumar Gupta, Shakir Ahamad, Narendra Kumar Vaishanv, Organic & biomolecular chemistry . 2018,第25期

机译：Seyferth-Gilbert试剂的碱介导的1,6-共轭加成到对醌甲基化物中
3. DNA oxidative damage by terpene catechols as analogues of natural terpene quinone methide precursors in the presence of Cu(II) and/or NADH. [J] . Zuniga MA, Dai J, Wehunt MP, Chemical research in toxicology . 2006,第6期

机译：在天然存在的Cu（II）和/或NADH中，萜烯儿茶酚类化合物作为天然萜烯醌甲基化物前体的类似物对DNA的氧化损伤。
4. STRUCTURAL STUDIES ON ACETYLCHOLINESTERASE AND PARAOXONASE DIRECTED TOWARDS DEVELOPMENT OF THERAPEUTIC BIOMOLECULES FOR THE TREATMENT OF DEGENERATIVE DISEASES AND PROTECTION AGAINST CHEMICAL THREAT AGENTS [C] . JOEL L. SUSSMAN, ISRAEL SILMAN NATO Advanced Study Institute on From Molecules to Medicines: Integrating Crystallography in the Fight Against Bioterrorism and Emerging Diseases Affecting Security . 2009

机译：乙酰胆碱酯酶和律酶的结构研究，用于治疗治疗生物分子的治疗去除疾病和化学威胁的保护
5. Design, synthesis and mechanistic studies of quinone methide reductive alkylating agents [D] . Khdour, Omar M. 2007

机译：醌甲基化物还原烷基化剂的设计，合成及机理研究
6. Study of para-Quinone Methide Precursorstoward the Realkylation of Aged Acetylcholinesterase [O] . Ryan J. Yoder, Qinggeng Zhuang, Jeremy M. Beck, 2017

机译：对苯醌甲基化前体的研究老化乙酰胆碱酯酶的重烷基化
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8. Studies on the Mechanism of Aging of Soman-Inhibited Acetylcholinesterase [R] . LBenschop, H. P., deJong, L. P. 1997

机译：梭曼抑制乙酰胆碱酯酶老化机制的研究

Study of para-Quinone Methide Precursors toward the Realkylation of Aged Acetylcholinesterase

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